CRB3 and NF2 orchestrate cytoskeletal dynamics to control epithelial barrier assembly
Shuling Fan, … , Charles A. Parkos, Asma Nusrat
Shuling Fan, … , Charles A. Parkos, Asma Nusrat
Published October 22, 2025
Citation Information: JCI Insight. 2025;10(20):e196350. https://doi.org/10.1172/jci.insight.196350.
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Research Article Cell biology Gastroenterology Inflammation

CRB3 and NF2 orchestrate cytoskeletal dynamics to control epithelial barrier assembly

Abstract

The gastrointestinal epithelium depends on the apical junctional complex (AJC), composed of tight and adherens junctions, to regulate barrier function. Here, we identify the apical polarity protein Crumbs homolog 3 (CRB3) as an important regulator of AJC assembly and barrier function in intestinal epithelium. Using primary murine colonic epithelial cells (colonoids) from inducible, conditional Crb3-knockout (Crb3ERΔIEC) and control (Crb3fl/fl) mice, we show that CRB3 deficiency compromised barrier function that was associated with a hypercontractile perijunctional actomyosin network and impaired AJC assembly. Loss of CRB3 exacerbated proinflammatory cytokine–induced AJC remodeling, leading to increased intestinal permeability. Crb3ERΔIEC cells exhibited increased RhoA activity and junctional tension, which could be reversed by ROCK-II or myosin II inhibition, restoring junctional architecture. Mechanistically, CRB3A interacts with the actin cytoskeletal linker protein, Merlin (NF2) via its FERM-binding domain, and NF2 knockdown phenocopied CRB3 loss, suggesting their cooperative role in AJC assembly. These findings establish CRB3 and NF2 signaling as key regulators of perijunctional actomyosin contractility and AJC organization during both de novo junctional assembly and inflammation-induced remodeling. This work defines a CRB3- and NF2-dependent pathway by which epithelial cells regulate mechanical tension to coordinate barrier assembly during homeostasis and junctional remodeling under inflammatory stress.

Authors

Shuling Fan, Saranyaraajan Varadarajan, Vicky Garcia-Hernandez, Sven Flemming, Arturo Raya-Sandino, Ben Margolis, Charles A. Parkos, Asma Nusrat

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Figure 8

Loss of NF2 mimics the defects seen in CRB3-deficient IECs, including impaired apical junctional assembly, disorganization of the perijunctional actomyosin belt, and compromised epithelial barrier function.

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Loss of NF2 mimics the defects seen in CRB3-deficient IECs, including im...
(A) Representative immunoblot showing the efficiency of NF2 knockdown in SKCO-15 IECs transfected with control scrambled or NF2 siRNA, with F-actin as a loading control. n = 3 independent experiments. (B) Graph showing TER of SKCO-15 cells with siRNA-mediated knockdown of NF2 or scramble control in cells cultured as monolayers for 4 days. Data are mean ± SD, n = 3 experiments each with 6 technical replicates. *P ≤ 0.05; ****P ≤ 0.0001 by 2-way ANOVA. (C) Representative perijunctional F-actin organization (phalloidin, green) and tight junction protein ZO-1 (red) localization in subconfluent SKCO-15 cells with siRNA knockdown of NF2 or control scramble siRNA for 48 hours. White box highlights an area that is enlarged in the right panel. Scale bars: 25 μm. n = 3 independent experiments, 3 technical replicates each. (D) Immunostaining of junctional myosin II (p-MLC [T18/S19], green) and the tight junction protein ZO-1 (red) in subconfluent SKCO-15 with NF2 siRNA–mediated knockdown or control scramble siRNA for 48 hours. White box highlights the zoomed-in area shown in the right panel. Scale bars: 25 μm. n = 3 independent experiments, 3 technical replicates each. (E) Model figure illustrating the role of CRB3 and its binding partner NF2 in regulating perijunctional actomyosin belt and barrier function via RhoA/ROCK-II signaling during apical junctional complex assembly/remodeling.